Evolution of Ge wetting layers growing on smooth and rough Si (001) surfaces: isolated 105 facets as a kinetic factor of stress relaxation
Abstract
The results of STM and RHEED studies of a thin Ge film grown on the Si/Si(001) epitaxial layers with different surface relief are presented. Process of the partial stress relaxation was accompanied by changes in the surface structure of the Ge wetting layer. Besides the well-known sequence of surface reconstructions (2 × 1 → 2 × N → M × N patches) and hut clusters faceted with 105 planes, the formation of isolated 105 planes, which faceted the edges of M × N patches, has been observed owing to the deposition of Ge on a rough Si/Si (001) surface. A model of the isolated 105 facet formation has been proposed based on the assumption that the mutual arrangement of the monoatomic steps on the initial Si surface promotes the wetting layer formation with the inhomogeneously distributed thickness that results in the appearance of M × N patches partially surrounded by deeper trenches than those observed in the usual Ge wetting layer grown on the smooth Si(001) surface. Isolated 105 facets are an inherent part of the Ge wetting layer structure and their formation decreases the surface energy of the Ge wetting layer.
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